spaCy/spacy/ner/bilou_moves.pyx

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from __future__ import unicode_literals
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from ._state cimport begin_entity
from ._state cimport end_entity
from ._state cimport entity_is_open
from ._state cimport entity_is_sunk
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ACTION_NAMES = ['' for _ in range(N_ACTIONS)]
ACTION_NAMES[<int>MISSING] = '?'
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ACTION_NAMES[<int>BEGIN] = 'B'
ACTION_NAMES[<int>IN] = 'I'
ACTION_NAMES[<int>LAST] = 'L'
ACTION_NAMES[<int>UNIT] = 'U'
ACTION_NAMES[<int>OUT] = 'O'
cdef bint can_begin(State* s, int label):
return not entity_is_open(s)
cdef bint can_in(State* s, int label):
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return entity_is_open(s) and s.curr.label == label
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cdef bint can_last(State* s, int label):
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return entity_is_open(s) and s.curr.label == label
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cdef bint can_unit(State* s, int label):
return not entity_is_open(s)
cdef bint can_out(State* s, int label):
return not entity_is_open(s)
cdef bint is_oracle(ActionType act, int tag, ActionType g_act, int g_tag,
ActionType next_act, bint is_sunk):
if g_act == MISSING:
return True
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if act == BEGIN:
if g_act == BEGIN:
# B, Gold B --> Label match
return tag == g_tag
else:
# B, Gold I --> False (P)
# B, Gold L --> False (P)
# B, Gold O --> False (P)
# B, Gold U --> False (P)
return False
elif act == IN:
if g_act == BEGIN:
# I, Gold B --> True (P of bad open entity sunk, R of this entity sunk)
return True
elif g_act == IN:
# I, Gold I --> True (label forced by prev, if mismatch, P and R both sunk)
return True
elif g_act == LAST:
# I, Gold L --> True iff this entity sunk and next tag == O
return is_sunk and (next_act == OUT or next_act == MISSING)
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elif g_act == OUT:
# I, Gold O --> True iff next tag == O
return next_act == OUT or next_act == MISSING
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elif g_act == UNIT:
# I, Gold U --> True iff next tag == O
return next_act == OUT
elif act == LAST:
if g_act == BEGIN:
# L, Gold B --> True
return True
elif g_act == IN:
# L, Gold I --> True iff this entity sunk
return is_sunk
elif g_act == LAST:
# L, Gold L --> True
return True
elif g_act == OUT:
# L, Gold O --> True
return True
elif g_act == UNIT:
# L, Gold U --> True
return True
elif act == OUT:
if g_act == BEGIN:
# O, Gold B --> False
return False
elif g_act == IN:
# O, Gold I --> True
return True
elif g_act == LAST:
# O, Gold L --> True
return True
elif g_act == OUT:
# O, Gold O --> True
return True
elif g_act == UNIT:
# O, Gold U --> False
return False
elif act == UNIT:
if g_act == UNIT:
# U, Gold U --> True iff tag match
return tag == g_tag
else:
# U, Gold B --> False
# U, Gold I --> False
# U, Gold L --> False
# U, Gold O --> False
return False
cdef int set_accept_if_valid(Move* moves, int n_classes, State* s) except 0:
cdef int n_accept = 0
cdef Move* m
moves[0].accept = False
for i in range(1, n_classes):
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m = &moves[i]
if m.action == BEGIN:
m.accept = can_begin(s, m.label)
elif m.action == IN:
m.accept = can_in(s, m.label)
elif m.action == LAST:
m.accept = can_last(s, m.label)
elif m.action == UNIT:
m.accept = can_unit(s, m.label)
elif m.action == OUT:
m.accept = can_out(s, m.label)
n_accept += m.accept
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assert n_accept != 0
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return n_accept
cdef int set_accept_if_oracle(Move* moves, Move* golds, int n_classes, State* s) except 0:
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cdef Move* g = &golds[s.i]
cdef ActionType next_act = <ActionType>golds[s.i+1].action if s.i < s.length else OUT
cdef bint is_sunk = entity_is_sunk(s, golds)
cdef Move* m
cdef int n_accept = 0
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set_accept_if_valid(moves, n_classes, s)
for i in range(1, n_classes):
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m = &moves[i]
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if not m.accept:
continue
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m.accept = is_oracle(<ActionType>m.action, m.label, <ActionType>g.action,
g.label, next_act, is_sunk)
n_accept += m.accept
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assert n_accept != 0
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return n_accept
cdef Move* best_accepted(Move* moves, weight_t* scores, int n) except NULL:
cdef int first_accept = -1
for first_accept in range(1, n):
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if moves[first_accept].accept:
break
else:
raise StandardError
assert first_accept != -1
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cdef int best = first_accept
cdef weight_t score = scores[first_accept-1]
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cdef int i
for i in range(first_accept+1, n):
if moves[i].accept and scores[i-1] > score:
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best = i
score = scores[i-1]
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return &moves[best]
cdef int transition(State *s, Move* move) except -1:
if move.action == BEGIN:
begin_entity(s, move.label)
elif move.action == IN:
pass
elif move.action == LAST:
end_entity(s)
elif move.action == UNIT:
begin_entity(s, move.label)
end_entity(s)
elif move.action == OUT:
pass
s.tags[s.i] = move.clas
s.i += 1
def get_n_moves(n_tags):
return n_tags + n_tags + n_tags + n_tags + 1
cdef int fill_moves(Move* moves, list tag_names) except -1:
cdef Move* m
label_names = {'-': 0}
for i, tag_name in enumerate(tag_names):
m = &moves[i]
if '-' in tag_name:
action_str, label = tag_name.split('-')
elif tag_name == 'O':
action_str = 'O'
label = '-'
elif tag_name == 'NULL' or tag_name == 'EOL':
action_str = '?'
label = '-'
else:
raise StandardError(tag_name)
m.action = ACTION_NAMES.index(action_str)
m.label = label_names.setdefault(label, len(label_names))
m.clas = i